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ENERGÍA SOLAR TÉRMICA DE CONCENTRACIÓNAlertas Tecnológicas - 1 de 33 -

ENERGÍA SOLAR TÉRMICA DE CONCENTRACIÓN

88 Resultados Datos actualizados a 28/01/2019 [15:44:00]Solicitudes publicadas en los últimos 60 días / Applications published in the last 60 days

SEMICONDUCTOR CHILLING MULTILAYER COMBINED BUFFER SOLAR POWERED PHOTOVOLTAIC DISTILLER

Nº publicación 24/01/2019US2019022549A1Solicitantes LAM KAI LOK [HK] Resumen The present invention relates to a semiconductor chilling

multilayer combined buffer solar powered photovoltaic distiller,comprises a machine frame, a first water tank for storing waterto be distilled, a water pump, a heat collector, a steam pump, acondensation pipe, a second water tank for storing desalinatedwater, a PLC controller and a solar panel. The heat collectorcomprises an outer glass case and an inner glass case. Thefirst water tank is connected to one end of the chamber of theinner glass case. The other end of the inner glass case isconnected to the buffer tank. The steam pump is connected tothe buffer tank. The steam pump, the condensation pipe fixedlymounted on the support plate and the water tank fixedlymounted on the base plate are connected in series. Asemiconductor chilling plate and an electric heater arealternately disposed between the condensation pipe and thesupport plate. The structure is reasonable, having theadvantages of simple, convenient to use, high energy utilizationrate, does not rely on external power supply etc. can effectivelysolve the problem of traditional water resource treatment havingbig energy consumption, and the equipment and site being notmovable.

SYSTEM FOR COLLECTING RADIANT ENERGY WITH A NON-IMAGING SOLAR CONCENTRATOR

Nº publicación 24/01/2019US2019024642A1Solicitantes AL MAAITAH AYMAN ADNAN S [JO]

AL MAAITAH ADNAN AYMAN [JO] Resumen Implementations of a system for collecting radiant energy with a non-imaging solar concentrator are provided. In

some implementations, the system may be configured to focus radiant energy striking a plurality of concentric, conicalring-like reflective elements of the non-imaging concentrator onto a receiver positioned thereunder and to rotateand/or pivot the receiver so that at least a portion thereof is always kept within the focal point (or area) of thenon-imaging concentrator. Wherein the center of the focal point (or area) is fixed with respect to the ground. In someimplementations, the system for collecting radiant energy with a non-imaging solar concentrator may comprise atracking apparatus configured to support the non-imaging concentrator and position it so that the sun is normalthereto, and a piping system that is configured to transfer concentrated solar energy from the receiver to an absorbingsystem where the energy is finally utilized.

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SEMICONDUCTOR-COOLED MULTILEVEL HYBRID BUFFER SOLAR PHOTOVOLTAIC DISTILLER

Nº publicación 24/01/2019WO2019015061A1Solicitantes LAM KAI LOK [CN] Resumen A semiconductor-cooled multilevel hybrid buffer solar

photovoltaic distiller, comprising a frame (1), a first water tank(2), a water pump (3), a heat collector (4), a vapor pump (5), acondensation tube (6), a second water tank (7), a PLCcontroller (8), and a solar panel (9), the heat collector (4)comprising an outer glass casing (44) and an inner glass casing(45); the inner cavity of the first water tank (2) is connected toone end of the inner cavity of the inner glass casing (45), andthe other end of the inner glass casing (45) is in communicationwith a buffer tank (48); the vapor pump (5) is in communicationwith the buffer tank (48), the vapor pump (5), the condensationtube (6), and the second water tank (7) are connected in seriessuccessively, and semiconductor cooling plates (61) andelectrothermal plates (62) are alternately provided between thecondensation tube (6) and a support plate (12). Thesemiconductor-cooled multilevel hybrid buffer solar photovoltaicdistiller has a proper structure, and has the advantages of asimple structure, being easy to use, a large energy utilizationratio, and not depending on an external energy supply,effectively solving the problems in traditional water resourcetreatment that the energy consumption is great and the fieldand device are unmovable.

OVERGROUND POSITIONED SOLAR RAY CONCENTRATION SYSTEM FOR A POWER GENERATION SYSTEM

Nº publicación 23/01/2019EP3431899A1Solicitantes VAN LEEUW JON OTEGUI [DE] Resumen The present invention comprises a set of flat collection mirrors (1.1) which are each comprised of a vertical member

(1.11), with electrical motors to control the attitudes of said mirrors, in order for the solar rays (1.5) to be alwaysreflected by said mirrors (1.1) towards a Plano concave or concave mirror (1.2) comprised beside each of said mirrors(1.1). So, said solar rays are directed towards said Plano concave or concave mirrors (1.2), which then concentratesaid light rays (1.5) towards a Plano convex or convex mirror (1.9) comprised just in front of and under each of saidPiano concave or concave mirrors (1.2). So, said light rays are driven by said Piano convex or convex mirror (1.9)towards a flat reflection mirror (1.13). Said flat mirror (1.13) drives said light rays upwards to another flat reflectionmirror (1.4), which drives said light rays towards the lowest part of the next Piano concave or concave mirror (1.2)comprised beside the next flat collection mirror (1.1). Said flat reflection mirrors (1.4, 1.13) are comprised under andbehind said next flat collection mirror (1.1). A set of vertical mast structures (1.12) sustain the horizontal maststructured structure (1.6), which sustains all flat collection mirrors (1.1), as well as all Piano concave or concavemirrors (1.2) and Piano convex or convex mirrors (1.9). Said flat reflection mirrors (1.4, 1.13) are sustained by saidvertical mast structures (1.12), while said convex or Piano convex mirrors (1.9) a

SISTEMA DE RECOGIDA DE FUGAS EN CENTRALES TERMOSOLARES

Nº publicación 21/01/2019ES2696979A1Solicitantes TECNOVACION GLOBAL S L [ES]

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A SOLAR COLLECTOR

Nº publicación 17/01/2019WO2019012472A1Solicitantes IGNJATOVIC DRAGAN [ZA]

LLOYD GAVIN [ZA] Resumen A solar collector (10) and a solar collector assembly are disclosed. The solar collector (10) has a primary reflective

surface (12) that is shaped to have a focus and is configured to concentrate light rays at the focus. The solar collectorfurther has a secondary reflective surface (26) located at or near the focus that is configured to reflect the light raysreflected from the primary surface (12) onto the secondary surface (26) which, in turn, reflects the light rays onto atertiary reflective surface (28). The tertiary surface (28) is configured to reflect the light rays toward a receiver (38).The solar collector assembly includes a plurality of solar collectors that are supported by a frame (104). The frame(104) has a number of elongate supporting members (106) along which light rays may be reflected toward a centralreceiver (110).

Heat Receiver Tube With Metallic Sealing

Nº publicación 17/01/2019US2019017728A1Solicitantes SIEMENS CONCENTRATED SOLAR POWER LTD [IL] Resumen A heat receiver tube for absorbing solar energy and for

transferring absorbed solar energy to a heat transfer fluid mayinclude: a core tube with a solar energy absorptive coating forabsorbing solar radiation, the heat transfer fluid at least partiallyinside the core tube; and an enveloping tube surrounding thecore tube, the enveloping tube including an inner envelopingtube surface. The core tube and the enveloping tube arecoaxially arranged forming an inner heat receiver tube space.There is an inert gas in the inner heat receiver tube space. Thetube may further include a dimension adapting device having aflexible adapting device wall compensating for thermallyinduced changes in a dimension of the tube. The envelopingtube and the dimension adapting device are joined together bya skirt having an inlet port for the inert gas. The inlet port issealed with a metal.





SOLAR CONCENTRATOR FOR A TOWER-MOUNTED CENTRAL RECEIVER

Nº publicación 17/01/2019US2019017729A1Solicitantes UNIV ARIZONA [US] Resumen A solar concentrator may have a horizontal circular track on the

ground, a tower centered on a vertical axis of the track, and arotatable structure around the track having an upper, concavemounting surface approximating the shape of part of a spherecentered on the top of the tower. Articulated concave mirrorsare attached to the rotatable structure, and the mirrors have afocal length approximately equal to the radius of a sphereportion formed by the concave mounting surface. Sunlight isfocused at a receiver mounted atop the tower, and the receivermay convert sunlight into thermal or electrical energy. As theposition of the Sun changes, sunlight is maintained on the receiver by turning the rotatable structure toward the Sun,turning the receiver about said vertical axis to face the mirrors, and articulating the mirrors toward the receiver inresponse to the changing elevation of the Sun.

Process system for recovering heat, and a method for operating same

Nº publicación 17/01/2019AU2017266626A1Solicitantes SYNHELION SA Resumen The invention relates to a process system (1, 60, 100, 130, 160,

180, 190) compris ing heat stores(3,4,30,61,61a-61d,62,62a-62d,110,163-165,181-183,195-198), which are designed to store heat between an upper(T


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Solar Trough Frame, Part and Method

Nº publicación 17/01/2019US2019018217A1Solicitantes WERNER CRAIG ROY [US]

WERNER KURT JAMES [US] FUNAI JOHN [US] WERNER EXTRUSION SOLUTIONS LLC [US]

Resumen A solar trough frame for holding solar mirrors includes aplurality of chords. The frame includes a plurality of extrudedprofiles, including chords, chord sleeves, struts, strut endpieces and mirror support pieces, each chord sleeve having atleast one chord sleeve fin, each chord sleeve positioned aboutone of the chords. The frame includes a plurality of struts, atleast one of the struts having a strut end piece having at leastone strut fin that connects with a chord sleeve fin to connect theplurality of chords. The frame includes a platform supported bythe chords and struts on which the solar mirrors are disposed.A chord sleeve for connecting a chord of a solar frame whichsupports solar mirrors to a strut end piece extending from astrut of the solar frame. A strut end piece for connecting thestrut of a solar frame which supports solar mirrors to a chordsleeve of the solar frame. A method for linking a strut of a solarframe which supports solar mirrors to a chord of the solarframe. A method for supporting solar mirrors.

OPTIMIZED STATIC RADIATION COLLECTOR

Nº publicación 17/01/2019US2019019898A1Solicitantes SOLIGHT LTD [IL] Resumen An electromagnetic radiation collecting device is presented,

which is particularly useful for the collection of solar radiation,providing optimal radiation collection throughout the daytime,and throughout yearly seasonal changes. The collector entailsa redundant number of static collectors arranged in such amanner as to provide maximal and chronologically evenedcollection outline.





种防冻防过热变倾角集热器

Nº publicación 11/01/2019CN109186104ASolicitantes \u897F\u5B89\u5EFA\u7B51\u79D1\u6280\u5927\u5B66 Resumen 本发明给出了种防冻防过热变倾角集热器，包括壳体组件、安装在壳体组件内的热水组件

和遮光组件以及可调支撑足组件填充于壳体组件内的相变蓄热材料；壳体组件包括盖体和箱体，盖体和箱体铰接；热水组件包括安装在箱体内的真空加热管；遮光组件包括安装在箱体内的高反光薄膜，高反光薄膜可卷收或释放。本发明的防冻防过热变倾角集热器年热效率高、适用范围广，可以根据不同地区不同季节的太阳高度角进行调节，提升太阳辐射的接收效率；冬天时，真空加热管自身热水和相变蓄热材料可以保证保证真空加热管不被冻裂。夏天时，可以自动控制高反光薄膜的启闭防止集热器过热，保证集热器正常工作，高反光薄膜启闭消耗的电能均由光伏板与蓄电池提供。

种用于煤矿安全开采的可再生能源冷热电联产装置

Nº publicación 11/01/2019CN109186106ASolicitantes \u5F20\u4FCA\u971E Resumen 本发明公开了种用于煤矿安全开采的可再生能源冷热电联产装置，属于煤矿安全开采的技

术领域。包括太阳能集热器、集热箱、过热器、火力发电单元、储电器、变压器、热泵和风力发电机。太阳能集热器加热集热箱的水，部分以热水的形式输出，部分以饱和蒸汽的形式进入过热器，变为过热蒸汽后进入火力发电系统做功，转换为电能后电力存入储电器，同时，风力发电机所发的电能也存入储电器，电能通过变压器后输出至热泵，热泵具有换向阀，在需要时可分别输出冷气和热气。本装置可消除采用燃煤发电所带来的火灾安全隐患，具有结构设置合理、安全可靠、环保节能、实用性强的特点。

ELECTROMAGNETIC RADIATION SENSING SYSTEM

Nº publicación 11/01/2019RU2017123879ASolicitantes \u0411\u041E\u041B\u0418\u041C\u0415\u0414\u0418\u0410

\u0425\u041E\u041B\u0414\u0418\u041D\u0413\u0417 \u041A\u041E. \u041B\u0422\u0414. Resumen An electromagnetic radiation sensing system, comprising

sensing elements (604, 605, 606) and a Fresnel lens system forconverging electromagnetic radiation; the sensing elements(604, 605, 606) are used to sense the electromagnetic radiationconverged by the Fresnel lens system; the Fresnel lens systemcomprises at least two toothed faces (601, 602, 603) located onthe same light path, each of the tooth faces comprising at leastone Fresnel unit; at least one of the two toothed faces is acomplex Fresnel refraction surface or a filled Fresnel refractionsurface, or the two tooth faces are at a same physical interfaceand an element located thereon has a reflective back surface.The electromagnetic radiation sensing system can adequatelyutilize the advantage of the thinness of a Fresnel lens, and hasbetter convergence without a significant increase in thethickness of the system, thus facilitating reducing of the size ofa device and improving of the system performance.

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Ham stand

Nº publicación 10/01/2019US2019008327A1Solicitantes MARQUES MUNOZ JOSE VICENTE [ES] Resumen The present invention relates to a ham stand (1) that comprises

a support structure (2) for a ham (3) and a base structure (4) forthe assembly, and a connection element (5) of the supportstructure (2) with the base structure (4). The connectionelement (5) comprises a spherical joint (6) and a housing piece(7) of said joint (6) attached to the other structure such that itpresents multiple degrees of freedom due to the combination ofpivoting and rotational movements of the support structure (2)with respect to the base structure (4). Thanks to the pivotingmovement, the user can rotate the ham to position it as desiredin order to cut it conveniently and safely.

SYSTEM FOR THE PRODUCTION OF CARBON NANOTUBES BASED ON CARBONACEOUS MATTER, PREFERABLY,PLASTIC WASTE AND SOLAR ENERGY; AND PRODUCTION METHOD

Nº publicación 10/01/2019WO2019006569A1Solicitantes UNIV CHILE [CL] Resumen The invention relates to: a system for the production of carbon nanotubes based on carbonaceous matter, preferably,

plastic waste and solar energy; and a production method





LAMINATE SOLAR CONCENTRATOR

Nº publicación 09/01/2019EP3423761A1Solicitantes HELIAC APS [DK] Resumen A focusing polymer foil for use in forming an optical element for

use in a solar concentrator, and an optical element for use in asolar concentrator, arranged such that the focusing polymer foilis removable in order to renew the function of the opticalelement following damage and/or wear to the focusing polymerfoil due to environmental conditions. A method of repair of sucha damaged optical element, and methods of making thefocusing polymer foil and optical element.

Thermal heat storage system

Nº publicación 09/01/2019EP3425319A1Solicitantes SUNLIGHT POWER INC [US]

BALDWIN DAVID [US] Resumen A thermal heat storage system is provided, including a storage

tank, a heat injection system and a heat recovery system. Thestorage tank holds a material for thermal storage. The heatinjection system is coupled to an intake on the storage tank.The heat recovery system is coupled to an output on thestorage tank and also uses vapor under depressurizedconditions for heat transfer.





COMPACTABLE RF MEMBRANE ANTENNA

Nº publicación 09/01/2019EP3423356A1Solicitantes LGARDE INC [US] Resumen Exemplary embodiments are described herein for compactable

antennas. Exemplary compactable antennas include a supportstructure and a reflector surface. The support structure maydirectly or indirectly define the reflector shape. Exemplaryembodiments comprise deployable support structures to permitthe compactable antenna to have a smaller volume stowedconfiguration and a larger volume deployed configuration.




A COMBINED SOLAR AND WIND ENERGY COLLECTING APPARATUS

Nº publicación 09/01/2019EP3423710A1Solicitantes AMIRLATIFI ALI [FI]

AMIRLATIFI TARU [FI] Resumen The invention relates to a combined solar and wind energy

collecting apparatus, which has in a built-in manner a wind unit(1) for converting force of the wind into electricity by means of arotor arrangement (1a) and a generator arrangement convertingrotating motion (w) of the rotor arrangement (1a) into electricity,and a solar unit (2) for converting solar radiation into electricityand/or into recoverable heat by means of a solar radiationcollector arrangement (2a). The solar unit (2) with the solarradiation collector arrangement (2a) is arranged on top of thewind unit (1), wherein the solar radiation collector arrangement(2a) comprises a rotationally symmetrical solar radiationcollector surface (2a'), the horizontal cross-section of whichdiminishes upward along the vertical center line (s). Theapparatus comprises furthermore a hollow liquid space (x)inside the solar radiation collector arrangement (2a) in order torecover solar radiation originated heat in the internal liquidspace into liquid, such as water.

种聚光型热电共产设备及热电共产系统

Nº publicación 08/01/2019CN109163460ASolicitantes \u5DEB\u56FD\u8F89 Resumen 本发明涉及太阳能设备领域，公开了种聚光型热电共产设备及热电共产系统。聚光型热电

共产设备包括至少个接收结构，每个接收结构的支架的空腔内设置有用于流通介质的集热管。在设置了集热管后，太阳能产生的热量容易被集热管内的介质吸收，因此该设备具有较好的散热效果，并且介质中的热量可以用做其他用途，从而使太阳能产生的热量不被浪费。本发明的热电共产系统包括了流通管路、热发电设备以及上述的聚光型热电共产设备，集热管的介质在吸收热量后进入流通管路，热发电设备可利用流通管路带出的热量发电。因此在具备上述的有益效果基础上，还可以将聚光型热电共产设备产生的热量用于发电，相当于进步提高了光电转化率。





种基于滤波片分光的太阳能高效利用装置

Nº publicación 08/01/2019CN109167567ASolicitantes \u6CB3\u6D77\u5927\u5B66\u5E38\u5DDE\u6821\u533A Resumen 本发明公开了种基于滤波片分光的太阳能高效利用装置，装置包括太阳能集热器、第滤波

片、第二滤波片、第三滤波片、单晶硅太阳能电池、聚光透镜、三结砷化镓聚光电池、非晶硅太阳能电池；太阳能集热器放置于第滤波片的反射光处，用于吸收第滤波片截止波段的能量；单晶硅太阳能电池放置于第二滤波片的反射光处，用于吸收波段800‑1200nm波长的光；非晶硅太阳能电池放置于第三滤波片的透射光处，用于吸收波段380‑500nm波长的光；三结砷化镓聚光电池放置于第三滤波片的反射光处，用于吸收波段500‑800nm波长的光；两者之间设置聚光透镜。本发明提出了太阳能分频利用，达到太阳能光电——光热的综合利用，从而提高太阳能的利用率和太阳能电池的光电转换效率。

种利用脉动热管和纳米颗粒高效吸收太阳能的装置

Nº publicación 08/01/2019CN109163458ASolicitantes \u5317\u4EAC\u5E08\u8303\u5927\u5B66\u9644\u5C5E\u5B9E\u9A8C\u4E2D\u5B66 Resumen 种利用脉动热管和纳米颗粒高效吸收太阳能的装置涉及太阳能集热领域，由脉动热管传热

装置、反射聚光装置和底座及动力装置三部分构成。脉动热管传热装置包括脉动热管(1)、传热容器(2)、盖子(3)；脉动热管(1)嵌在传热容器(2)上，脉动热管(1)部分暴露在传热容器(2)外，部分隐藏在传热容器(2)中，脉动热管与传热容器之间用胶密封；使用保温材料覆盖在传热容器和盖子的表面；反射聚光装置包括反射式聚光镜(7)和连接杆(8)；脉动管传热装置固定在传动杆(8)的末端，同时反射式聚光镜(7)的聚光点恰好在脉动热管(1)的外露部分。它以脉动热管为换热基础，通过在脉动热管中加入相关的纳米颗粒(如金、银纳米颗粒)，实时高效聚焦太阳能。

REFLECTOR DEVICE

Nº publicación 04/01/2019CN109154453ASolicitantes \u65BD\u7F8E\u80A1\u4EFD\u6709\u9650\u516C\u53F8 Resumen The present invention provides a reflec tor device carrier

structure for carryi ng on its first side (F) a reflective s urfacelayer, comprising a back plate ( 42), a body part (44) positionedon the back plate (42) and having at least tw o stacked layers(46a-46b), each of whi ch formed by a hollow structure made ofa construction material, wherein adjac ent stacked layers(46a-46b) are separa ted by a sheet layer (48), wherein of t heat least two stacked layers (46a-46b ) pairs of adjacent layersdiffer in at least one parameter of their hollow st ructures, suchas orientation. The inve ntion further provides reflector device sas well as methods for producing them .






种万向太阳能热水器

Nº publicación 04/01/2019CN109140792ASolicitantes \u5E7F\u5DDE\u534E\u590F\u804C\u4E1A\u5B66\u9662 Resumen 本发明公开了种万向太阳能热水器，包括储水容器、支架、集热管、反光板、旋转机构和

摆动机构；反光板安装在支架上，集热管安装支架上并位于反光板的侧；集热管形成有进水端和出水端；进水端和出水端分别与储水容器连通；摆动机构用于带动支架上下摆动；旋转机构用于带动支架绕竖向轴线转动。本发明通过采用旋转机构带动集热管旋转，并配合摆动机构带动集热管上下摆动，实现在不同时段太阳所处的位置不同时，均可将集热管调整至朝向太阳的位置，使集热管能充分地接受太阳光的照射，进而提高能源利用率。

基于辐照变化改变集成模式的太阳能热互补联合循环系统

Nº publicación 04/01/2019CN109139400ASolicitantes \u534E\u5317\u7535\u529B\u5927\u5B66 Resumen 本发明公开了基于辐照变化改变集成模式的太阳能热互补联合循环系统，所述太阳能热互

补联合循环系统包括：第调节阀门、第二调节阀门、第三调节阀门、第四调节阀门、油‑水换热器、膨胀箱、油泵、槽式聚光镜场组成槽式太阳能子系统；本发明基于辐照变化改变集成模式的太阳能热互补联合循环系统，在太阳直射辐射强度较低的时刻，将太阳能热的集成位置从余热锅炉的高压蒸发器改变到第二级高压省煤器；该太阳能热互补联合循环系统不仅可以实现太阳能热的最大利用，增加太阳能的使用时长，而且还可以进步提高电厂的光电效率以及做功出力。

种基于菲涅尔线聚光集热的太阳能热水器

Nº publicación 04/01/2019CN109140799ASolicitantes \u5E7F\u4E1C\u5DE5\u4E1A\u5927\u5B66 Resumen 本发明公开了种基于菲涅尔线聚光集热的太阳能热水器。所述装置包括菲涅尔透镜、凹透

镜、太阳能真空集热管、反射镜、脉动热管、相变储能材料、换热箱、平衡水箱、水泵、储水箱和支架。本发明所述太阳能热水器使得太阳能真空集热管受热更加均匀；且太阳光能够得到充分的利用；同时可避免由于太阳能真空集热管内部产生水垢进而影响集热性能的现象，还能提高热量的传输速度；即使太阳辐射强度不够时，也能正常工作；此外，还设有双轴跟踪机构，理论上可以完全跟踪太阳的运行轨迹以实现入射角为零；所述太阳能热水器集多种优点于体，性能可靠、制造工艺简单、成本低廉、无结垢、热损失低等，是未来太阳能热水器的发展方向。

种太阳能发电装置

Nº publicación 04/01/2019CN109140796ASolicitantes \u65B0\u5965\u6CDB\u80FD\u7F51\u7EDC\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明涉及太阳能发电技术领域，公开了种太阳能发电装置，包括聚光器、接收器、发电

系统、两个光照度传感器、驱动装置以及控制装置，其中，聚光器用于将光线聚集到接收器上；接收器用于将光能转化为热能并提供给发电系统；两个光照度传感器对称设置在聚光器内，每个光照度传感器分别用于检测在对应的设置位置的光照强度；控制装置分别与驱动装置以及每个光照度传感器信号连接，用于根据两个光照度传感器检测到的光照强度，控制驱动装置朝向确定的驱动方向转动/停止，其中，驱动方向为两个光照度传感器中检测的光照强度较弱的光照度传感器对应位置的侧；驱动装置用于在控制装置的控制下，驱动/停止驱动聚光器以及接收器同步转动。







EFFICIENT SOLAR-THERMAL POWER STATION HAVING FIXED PIPE

Nº publicación 03/01/2019WO2019001089A1Solicitantes WANG CUN YI [CN] Resumen Disclosed is an efficient solar-thermal power station having a

fixed pipe. The power station is a system using solar energy togenerate high-temperature and high-pressure steam to push asteam turbine and a generator to generate power. The powerstation is composed of a high sunlight heat machine group witha fully automatic dual-shaft sun follower (2), an energy storageand steam generation part, a power conversion and powergeneration part, and an auxiliary apparatus. The power stationcan be used for building large or ultra-large high sunlight heatpower stations to supply power to a power grid, and can also beused for building small distributed high sunlight heat powerstations to supply power to places such as residential areas,factories, farms and military barracks.

FLOATING TYPE POINT FOCUSING FRESNEL LIGHT CONDENSATION AND ENERGY ACCUMULATION APPARATUS

Nº publicación 03/01/2019WO2019001176A1Solicitantes ASIA PACIFIC MEGA TRADE LTD [CN] Resumen A floating type point focusing Fresnel light condensation and

energy accumulation apparatus, comprising heliostats (1),mounting frame structures (2), a floating steering rack (3), anenergy accumulation structure (5), a heliostat tracking controldevice (9), first power structures (6), and a second powerstructure (8). The mounting frame structures (2) are disposedon the floating steering rack (3) and are able to rotate; theenergy accumulation structure (5) is located on the floatingsteering rack (3); the heliostats (1) are disposed on thecorresponding mounting frame structures (2); the heliostats (1)are arranged to form a light condensation Fresnel reflector;reflection focal points of the heliostats (1) are all located on theenergy accumulation structure (5); the second power structure(8) is disposed on the floating steering rack (3); output ends ofthe first power structures (6) are connected to thecorresponding mounting frame structures (2); the first powerstructures (6) drive the corresponding mounting framestructures (2) to rotate; and the heliostat tracking control device(9) is connected to the first power structures (6) and the secondpower structure (8). The floating type point focusing Fresnellight condensation and energy accumulation apparatus has theadvantages that: when the energy accumulation apparatusfloats on the water surface, as the water surface is highly flat,inclination angles and orientations of the heliostats (1) can beadjusted accordin





SUNLIGHT MODULATION DEVICE FOR SOLAR ENERGY UTILIZATION ON ILLUMINATION AND ENERGY GENERATION

Nº publicación 03/01/2019US2019004297A1Solicitantes NATIONAL CHIAO TUNG UNIV [TW] Resumen A sunlight modulation device includes a light focusing module and a light deflection module. The light focusing

module is configured to let incident sunlight pass through and to converge direct sunlight of the incident sunlight. Thelight deflection module is configured to separate the converged direct sunlight from diffusion sunlight of the incidentsunlight by reflecting the converged direct sunlight. The above-mentioned sunlight modulation device allows morediverse configurations for solar panels, heating devices or the like means, as well as illumination purpose.

Sheaf of unclad waveguides

Nº publicación 02/01/2019GB2563963ASolicitantes SOLITON HOLDINGS CORP [US] Resumen A bundle of unclad waveguides optionally in combination with

the focusing effect of a parabolic antenna is used toconcentrate ambient optical or acoustic radiation onto aradiation absorbing surface. The absorbed energy istransformed into either warmth by a photoabsorber, electricalpower via a photovoltaic device, or mechanical thrust for solarsail or acoustic sail applications.


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Absorption of electromagnetic energy

Nº publicación 02/01/2019GB2563828ASolicitantes SOLITON HOLDINGS CORP [US] Resumen A device for absorption or detection of electromagnetic (EM)

radiation 43, 45; the device comprising an EM detector and aplurality of waveguides 42 (i.e. optical fibres); wherein eachwaveguide has an elongated shape at least 10 cm in length; thewaveguide comprising: a transparent shell, cladding sidesurfaces of the waveguide and at least one end, faced to theEM detector; wherein EM radiation is delivered to the EMdetector by the waveguides. The EM detector may be a solarthermal collector or a photovoltaic cell. The waveguides mayhave concave dishes 42.2 centred on the end of the waveguideto parallelise the EM radiation. Multiple waveguides may beused to supply two separate detectors (see Figure 9) with bothends of the waveguides having concave dishes. The devicemay be included in a solar sail to direct EM radiation towardsthe solar sail to provide thrust. An analogous device is alsoclaimed which uses an acoustic detector and acousticwaveguides to deliver acoustic waves to the detector.

种平板体式太阳能热水器

Nº publicación 01/01/2019CN109114823ASolicitantes \u6C5F\u82CF\u8D1D\u5FB7\u83B1\u7279\u592A\u9633\u80FD\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明公开了种平板体式太阳能热水器，包括支架和保温桶，所述支架的上端固定有安装

板，所述安装板的上端设置有基座，所述保温桶依次安装在基座的上端，所述保温桶的上端固定有反光板，所述反光板的上端均匀设置有真空管，所述支架的内部设置有环形通孔，每两个相邻的所述保温桶之间通过连通管相连，所述保温桶的两端均设置有凸头，所述反光板通过上端设置的凹槽与所述真空管相连。本发明通过设置支架、安装板、基座、环形通孔、反光板、真空管、保温桶、连通管、下固定件、防护壳、梁板、上固定件以及凹槽，解决了现阶段太阳能热水器在使用时的集热效果不够好，占用空间大以及设备的使用寿命不长的问题。

种槽式聚光PV/T混合系统

Nº publicación 01/01/2019CN109114827ASolicitantes \u6CB3\u6D77\u5927\u5B66\u5E38\u5DDE\u6821\u533A Resumen 种槽式聚光PV/T混合系统，系统包括槽式聚光器、滤光片、真空管、吸热涂层、传热

流体管道、导热胶、太阳能电池、冷却管道。槽式聚光器置于整个系统最下方；滤光片置于槽式聚光器的上方，并且位于光线汇聚处，将槽式聚光器汇聚的光线分为长波和短波两部分；真空管置于滤光片上方接受从滤波片透射过来的长波；吸热涂层电镀在真空管内壁；传热流体管道安装在真空管内与真空管发生热交换；冷却管道置于滤光片下方，冷却管道上安装了若干片太阳能电池；太阳能电池通过导热胶粘贴在冷却管道上。本发明提出了种新型槽式聚光PV/T系统，通过滤光片的分光原理，提升了传统槽式聚光PV/T混合系统的热能品质和降低电池运行的温度。






种生物质燃料分系统

Nº publicación 28/12/2018CN109091895ASolicitantes \u5E7F\u5DDE\u5947\u8FBE\u745E\u76DB\u73AF\u4FDD\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明公开了种生物质燃料分系统，包括固设于地面上方的基座A，所述基座A右端面固

设有与地面固定的基座B，所述基座B内设置有开口朝上的开口腔A，所述开口腔A左端壁内固设有电机A，所述电机A的输出轴向右延伸与所述开口腔A右端壁转动配合连接，所述电机A的输出轴外表面螺纹配合连接设置有与所述开口腔A下端壁滑动配合连接且向上延伸的滑块A，所述滑块A中可转动的设置有转轴A，本发明设备结构简单，使用方便，此设备采用聚集太阳能的热量，通过水蒸气将热量传递到液态混合的生物质燃料中，将生物质燃料中的多余水汽蒸发，实现水汽分离，有效提高了设备的工作效率。

种实时调整焦距的小型太阳能热水器

Nº publicación 28/12/2018CN109099601ASolicitantes \u70DF\u53F0\u70DF\u5927\u4F17\u667A\u77E5\u8BC6\u4EA7\u6743\u670D\u52A1\u6709\u9650\u516C\u53F8 Resumen 本发明公开了种实时调整焦距的小型太阳能热水器，包括底座，所述底座位于地面上方，

所述底座上方设有光线追踪机构，所述底座上方设有焦距调节机构，所述焦距调节机构上方设有加热机构，所述底座上方分设有控制器和电池盒，所述控制器的电源输入端与电池盒的电源输出端电性连接，所述控制器的电源输出端分别与凸镜方向直线电机、焦距直线电机电性连接，所述控制器的信号输出端分别与凸镜方向直线电机、焦距直线电机电性连接。本发明的有益效果是，结构简单，实用性强。

种具有补充热源的碟式太阳能热利用系统

Nº publicación 28/12/2018CN109099600ASolicitantes \u5929\u6D25\u6E05\u82B8\u4E3B\u529B\u80FD\u6E90\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明公开了种具有补充热源的碟式太阳能热利用系统，其特征是，包括碟式太阳能集热

系统、热源稳定及补充系统、储/换热系统、热用户动力设备、热源稳定及补充系统循环动力设备、动力循环设备、热用户、进口切换阀门、出口切换阀门及多根管线。本发明的系统采用碟式集热器，具有更高的聚光倍数，避免了太阳辐射余弦损失，显著提高系统光学效率，同时集成储/换热系统和热源稳定及补充系统，在克服了太阳能间歇性和低稳定性的局限的同时，还提高了系统整体热利用效率和经济性。

种四靶太阳能集热管

Nº publicación 28/12/2018CN109099596ASolicitantes \u5B89\u5FBD\u6625\u5347\u65B0\u80FD\u6E90\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明公开种四靶太阳能集热管，属于太阳能应用技术领域，包括内管和外管，所述外管

同轴套设于所述内管外周，所述内管与所述外管之间形成真空区，所述内管外壁设有涂层，所述涂层的纵向截面是条具有峰段、谷段及斜线部分的线条，所述外管内壁上分别设有金属层和第二反射层。本发明通过在所述内管表面设置具有峰部和谷部的所述涂层，以及在所述外管的内壁上设置所述金属层和所述第二反射层，能够有效提高太阳能集热管的吸热效率，且不易老化、不易脱落。







FACET FOR A HELIOSTAT OF SANDWICH DESIGN AND METHOD FOR PRODUCING A FACET

Nº publicación 27/12/2018DE102017113738A1Solicitantes SBP SONNE GMBH [DE] Resumen The invention relates to a facet for a heliostat of a solar tower

power plant, which facet is formed as a sandwich structure andhas on the rear side thereof a multiplicity of webs (9), which arelikewise formed as a sandwich. As a result, a very lightweight,flexurally rigid, and geometrically highly precise facet that isvery good with regard to production costs and optical efficiencycan be provided.

BUILDING-INTEGRATED SOLAR ENERGY SYSTEM

Nº publicación 27/12/2018US2018372336A1Solicitantes TENKIV INC [US] Resumen A building-integrated solar energy system is disclosed that

comprises an evacuated closed-loop conduit networkcirculating a working fluid through a solar thermal collector andat least one heat usage device, wherein the effective entirety ofthe surfaces of the closed-loop conduit network are in contactwith the working fluid such that phase change occurs wheneverheat energy is added by the solar thermal collector or removedby a heat usage device. The working fluid is adiabaticallyisolated and contained in a low pressure environment within theclosed-loop conduit network. The full surface contact andlow-pressure isolation of the working fluid dramatically reducestemperature differentials and energy losses, allowing for highlyefficient and cost-effective heat collection and distribution.

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RENEWABLE ENERGY-BASED ATMOSPHERIC WATER GENERATOR

Nº publicación 27/12/2018US2018371726A1Solicitantes NOWAK ELIZABETH [US]

KATZ GUY [IL] Resumen A method and apparatus for generating water from an atmospheric water source involving (a) collecting a fixed

volume of ambient air in a chamber; (b) raising the pressure of the fixed volume of ambient air in the chamber byheating the fixed volume of ambient air with a solar heater thereby increasing the dew point of the fixed volume ofambient air in the chamber; (c) cooling a surface of the chamber with air outside the chamber; (d) condensing thewater in the fixed volume of ambient air in the chamber on the cooling surface when the dew point is greater than thetemperature of the cooling surface that is in contact with outside air; (d) collecting the resulting dew in a collectionbasin; and (f) refreshing the air supply within the chamber.

REFLECTING-TYPE SOLAR POWER DEVICE

Nº publicación 27/12/2018WO2018232551A1Solicitantes BOLYMEDIA HOLDINGS CO LTD [US]

HU XIAOPING [CN] Resumen Disclosed is a reflecting-type solar power device comprising a light-receiving device (110) and at least one

light-reflecting device (120, 120'). The light-receiving device (110) delimits a first light-receiving face used forreceiving sunlight. The light-reflecting device (120, 120') is provided on a side face of the first light-receiving face andhas a curtain-type reflecting face (121, 121') and a driving mechanism (122, 122') used for driving the curtain-typereflecting face (121, 121') to extend and retract. When the curtain-type reflecting face (121, 121') is completely orpartially extended, sunlight reaching the curtain-type reflecting face (121, 121') is at least partially guided to an areawhere the first light-receiving face is located. Since a curtain-type reflecting face (121, 121') able to extend or retractis used, not only can the sun be tracked but also the curtain-type reflecting face (121, 121') can be extended orretracted according to the strength of wind power, increasing the wind resistance performance of the device.

Sheaf of Unclad Waveguide Beam-Makers

Nº publicación 27/12/2018US2018372949A1Solicitantes SOLITON HOLDINGS CORP DELAWARE CORP [US] Resumen The invention provides an improved method and apparatus, in

general, for a use of a sheaf of unclad waveguide beam-makersto provide for a multi-stage forcedly-conveying waveguide effectof waveguide fibers in combination with the self-focusingwaveguide effect of parabolic antennas, on the one hand, toabsorb the ambient radiation, and in particular, for sunlight raysenergy absorption to detect and transform the energy into eitherwarmth, or electrical power, or mechanical thrust, and, on theother hand, to transmit the wave-energy through ahomogeneous poorly-permeable medium.






FACET FOR A HELIOSTAT OF SANDWICH DESIGN AND METHOD FOR PRODUCING A FACET

Nº publicación 27/12/2018WO2018234171A1Solicitantes SBP SONNE GMBH [DE] Resumen The invention relates to a facet for a heliostat of a solar tower

power plant, which facet is formed as a sandwich structure andhas on the rear side thereof a multiplicity of webs (9), which arelikewise formed as a sandwich. As a result, a very lightweight,flexurally rigid, and geometrically highly precise facet that isvery good with regard to production costs and optical efficiencycan be provided.

RECEIVER FOR SOLAR ENERGY PRODUCTION INSTALLATIONS

Nº publicación 26/12/2018BR112018016850A2Solicitantes DEUTSCHES ZENTRUM FUER LUFT UND RAUMFAHRT E V [DE] Resumen The invention relates to a receiver (1) for solar energy

production installations (100), comprising a support structure(7) which supports absorber modules (11) and comprisingmultiple air tubes (21). Each of the absorber modules (11)contains a front-face absorber body (17) and a hot air channel(19). One of the air tubes (21) connects to each of the hot airchannels (19), and process air can flow through each absorbermodule (11), said air being suppliable to a load as a heattransfer medium. At least the air tubes can be cooled withrecirculated return air exiting on the front face in order to besuctioned into the absorber modules. According to theinvention, selected air tubes (21a) are each connected to anoutlet module on the front face, wherein the outlet modules arearranged adjacently to the absorber modules (11) and thereturn air exits the outlet modules on the front face.


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Solar ray concentration system for a power generation system

Nº publicación 26/12/2018GB2563572ASolicitantes JON OTEGUI VAN LEEUW [DE] Resumen A solar thermal power generation system comprising a vertical tower or mast 10.4 with a plurality of arrays of mirrors

mounted upon the mast, used to concentrate incoming solar rays downwards 10.6, to a focal point inside a channel.Each array of mirrors comprises a concave mirror 10.3, a convex mirror 10.6, and two pairs of flat inclined mirrors, allmounted on horizontal members protruding from the vertical tower. In some embodiments there may be a light rayshielding member 10.1 mounted parallel to the mast structure, to prevent the concentrated sun rays from beingprojected in unwanted directions. The concentrated solar rays are used to heat water in a water carrying tube, whichis converted to steam to drive turbines for energy generation. The convex mirror may be a plano convex mirror, andthe concave mirror may be a plano concave mirror.

种非跟踪的复合抛物面聚光器

Nº publicación 25/12/2018CN109084490ASolicitantes \u7518\u8083\u81EA\u7136\u80FD\u6E90\u7814\u7A76\u6240 Resumen 本发明公开了种非跟踪的复合抛物面聚光器，包括锥形镀膜抛物面聚光器和第上盖，所述

锥形镀膜抛物面聚光器内壁的下端设置有接收器，所述第上盖包括棱镜罩盖和棱镜，所述棱镜设置在棱镜罩盖的外壁上，第上盖的下端与锥形镀膜抛物面聚光器的上端相连接，本发明中的非跟踪聚光器用特殊的光学矩阵系统免除了跟踪系统，较大幅度降低系统成本，大幅度提高可靠性，且聚焦效果好，具有很高的实用价值，本装置采用封闭式抽真空的结构，还能降低其自身的材料成本，减少对镜面膜的维护，因而进步降低使用成本。

太阳能集热发电装置及其加工方法

Nº publicación 25/12/2018CN109084489ASolicitantes \u5317\u4EAC\u6C49\u80FD\u5149\u4F0F\u6295\u8D44\u6709\u9650\u516C\u53F8 Resumen 本申请涉及种太阳能集热发电装置及其加工方法。太阳能集热发电装置包括支撑装置、集

热装置、反射镜和太阳能薄膜组件。支撑装置包括反射镜支架和支撑立柱，支架设置于支撑立柱的顶部。集热装置设置于反射镜支架与支撑立柱的连接处，用于将太阳能转化为热能。反射镜设置于反射镜支架，太阳光经过反射镜汇聚反射到集热装置。太阳能薄膜组件设置于反射镜靠近反射镜支架的表面，用于利用散射光或直射光进行发电。上述太阳能集热发电装置，将太阳能薄膜组件镀于聚光反射镜上，无需支架且几乎不增加重量和体积。既可以通过集热装置产生热能，又可以结合太阳能薄膜组件进行发电，从而极大提高的光资源的利用率。

太阳能集热发电组件

Nº publicación 25/12/2018CN109088566ASolicitantes \u767D\u5CFB\u5149,

\u767D\u5CA9\u677E, \u767D\u51C7\u4F1A, \u5218\u8273\u840D

Resumen 太阳能集热发电组件，是太阳能集热器中的集热部件，具有换热管、波纹管、换热管上端为盲端，该盲端固装有抽真空阀门、换热管下端的管口与波纹管上端的管口对接固连，波纹管的下端为盲端，波纹管内装有超导工质；换热管的外围设有水套，水套的顶部设有出水口、底部设有进水口；水套外壁或波纹管的外壁上贴有温差发电片；波纹管的外表面设有太阳能选择性吸收涂层；波纹管上套装有透明的真空管，真空管的下端为盲端，真空管的上端与波纹管密封固连；装有太阳能集热发电组件的太阳能集热器，集热效果好，可充分利用太阳能进行集热和发电，对安装的角度约束小，使得安装占地面积小，可满足楼房大部分住户使用，节能减排效果好。







种聚光式太阳能热水器

Nº publicación 25/12/2018CN109084487ASolicitantes \u5E7F\u5DDE\u5E02\u797A\u9F50\u592A\u9633\u80FD\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明公开了种聚光式太阳能热水器，包括聚光装置，所述聚光装置上通过支架固定有太

阳能热水管和蓄水箱，其中蓄水箱通过螺钉固定在聚光装置的顶端，太阳能热水管通过支架固定在聚光装置上，且太阳能热水管的进水端与蓄水箱的出水端连接，聚光装置的包括反光板和六棱台聚光装置，其中六棱台聚光装置镶嵌在反光板上，反光板包括底部支撑板和反光铝箔，反光铝箔铺设在底部支撑板上，六棱台聚光装置包括固定骨架和平面镜，其中平面镜固定在固定骨架上，六棱台聚光装置的横截面呈正六边形，竖截面呈等腰梯形。该聚光式太阳能热水器其上设置了六棱柱聚光装置，其结构简单，造价低，生产方便，且造价低。

ACTIVE SUNLIGHT REDIRECTION SYSTEM

Nº publicación 21/12/2018CN109073195ASolicitantes \u9A6C\u585E\u6D1B\u00B7\u4F0A\u59C6\u4F2F\u6069 Resumen A system and mechanism that redirects s unlight towards a

target destination. T he system has an array of double prismatic discs that are controlled by a cont rol module that includes alight detect ing module. The system is modular and w ill workfor any elevation and azimuth of direct sunlight. The system willfur ther provide one or more remote functio nalities. The systemcan be used to pro vide collimated solar side or top illum inationfor indoor spaces, directly or in combination with reflectors. Thesys tem may be combined with a hybrid solar lighting (HSL)panel to provide indoor illumination through optical fiber cab les.The system may be combined with a concentrated photovoltaic(CPV) panel o r with a concentrated solar thermal (CS T) panelto produce electricity or heat respectively. The system replacesthe solar tracker typically used in these a pplications, whichenables the assembly to be integrated in buildings and vehicles without altering their aesthetics.

种碟式太阳能热发电系统

Nº publicación 21/12/2018CN109059315ASolicitantes \u6606\u5C71\u6E05\u82B8\u65B0\u80FD\u6E90\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明涉及种碟式太阳能热发电系统，包括碟式太阳能集热系统和发电系统，所述碟式太

阳能集热系统通过管道连接所述发电系统，所述管道内流通有第传热介质，所述发电系统包括依次连通的蒸汽发生器、给水泵、汽轮机和冷凝器，所述汽轮机连接有发电机，所述第传热介质通过所述管道流入所述蒸汽发生器，所述给水泵向所述蒸汽发生器内泵入流体水，水吸收所述第传热介质的热量在所述蒸汽发生器内转化为蒸汽，所述蒸汽流入所述汽轮机内做功带动所述发电机发电，做功后的蒸汽流入所述冷凝器中凝结为水回流至所述给水泵。本发明采用蒸汽发电，循环水重复利用，大大降低了生产成本。






种空中聚光系统

Nº publicación 21/12/2018CN109059314ASolicitantes \u4E2D\u56FD\u7535\u5B50\u79D1\u6280\u96C6\u56E2\u516C\u53F8\u7B2C\u4E8C\u5341\u516D\u7814\u7A76\u6240

Resumen 本申请公开了种空中聚光系统，其特征在于，包括驻空装置、聚光装置及控制装置，其中：聚光装置可转动朝向地安装在驻空装置上，驻空装置用于使聚光装置停留在空中；聚光装置用于将太阳光聚拢为聚光光束并将所述聚光光束射向目标区域；控制装置分别与聚光装置及驻空装置电连接，用于控制驻空装置调节所述聚光系统在空中的驻空停留位置，还用于调节聚光装置的朝向。本申请中的聚光系统在空中将阳光聚拢为聚光光束再将聚光光束射向目标区域，该系统可获得指定朝向的汇聚光（高能光束），且汇聚光透过大气云层时传输损失小，可广泛应用于太阳能光热发电站、太阳能光热供暖站中作为高效热源。

COMPACTABLE RF MEMBRANE ANTENNA

Nº publicación 21/12/2018CN109071041ASolicitantes \u4E50\u52A0\u5FB7\u516C\u53F8 Resumen Exemplary embodiments are described her ein for compactable

antennas. Exemplary compactable antennas include a supportstructure and a reflector surface. The support structure maydirectly or indi rectly define the reflector shape. Exem plaryembodiments comprise deployable s upport structures to permitthe compact able antenna to have a smaller volume s towedconfiguration and a larger volume deployed configuration.

Solar ray concentration system for a power generation system

Nº publicación 19/12/2018GB2563383ASolicitantes JON OTEGUI VAN LEEUW [DE] Resumen A solar thermal power generation system comprising a vertical tower or mast 10.4 with a plurality of arrays of mirrors

mounted upon the mast, used to concentrate incoming solar rays downwards 10.6, to a focal point inside a channel.Each array of mirrors comprises a concave mirror 10.3, a convex mirror 10.6, and two pairs of flat inclined mirrors, allmounted on horizontal members protruding from the vertical tower. In some embodiments there may be a light rayshielding member 10.1 mounted parallel to the mast structure, to prevent the concentrated sun rays from beingprojected in unwanted directions. The concentrated solar rays are used to heat water in a water carrying tube, whichis converted to steam to drive turbines for energy generation. The convex mirror may be a plano convex mirror, andthe concave mirror may be a plano concave mirror.

种全周入射式太阳池

Nº publicación 18/12/2018CN109028616ASolicitantes \u71D5\u5C71\u5927\u5B66 Resumen 本发明公开种全周入射式太阳池，涉及太阳池技术领域，包括池体和反光装置，池体位于

反光装置内部，反光装置上设置有方向调节机构，方向调节机构调节反光装置的方向，以使太阳光经反光装置反射至池体上并透过池体，工作过程中可根据太阳的位置调整反光位置的方向，池体可充分吸收来自反光装置不同位置反射的太阳光，太阳光利用率有效提高，太阳池效率提高，热能转变速度快。







种智能砷化镓高倍聚光热电联产系统及其追日方法

Nº publicación 18/12/2018CN109028608ASolicitantes \u6C6A\u971C\u53F6 Resumen 本发明公开了种智能砷化镓高倍聚光热电联产系统，包括远程总控台和至少组热电联产阵

列，热电联产阵列包括本地监控装置和至少个热电联产单元，热电联产单元包括支架、传动机构、自供电装置、第电路和至少组热电联产模组；支架包括底座、立柱和框架，底座固定于安装位置，立柱的端与底座固定连接、另端通过传动机构与框架相连，热电联产模组设置于框架上；第电路包括控制电路、第定位模块，控制电路预存有与其本身对应的唯ID以及与安装位置相对应的太阳时。本发明还提供了利用上述智能砷化镓高倍聚光热电联产系统实现的追日方法。本发明对太阳能转化率高，维修方便，能够极大的降低维护成本，适用于光伏发电技术领域。

种基于光的反射原理进行集光的太阳能自动蒸馏器

Nº publicación 18/12/2018CN109028610ASolicitantes \u76DB\u4E16\u7476\u5170\uFF08\u6DF1\u5733\uFF09\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明公开了种基于光的反射原理进行集光的太阳能自动蒸馏器，其结构包括集光装置、

储水箱、蒸馏器器体、太阳能硅管，蒸馏器器体的倾斜面上均匀的安装有太阳能硅管，太阳能硅管呈等距式布设有八根及以上且均呈45度倾斜角设置，与现有技术相比，本发明的有益效果在于：该太阳能自动蒸馏器设置有三块抛光板，基于光的反射原理及光的反射定律，能够在太阳能硅管背阳时，大于0度且小于或等于45度的入射光线能够通过第抛光板间接反射到太阳能硅管及储水箱，使得太阳能硅管及储水箱背阳时也能得到阳光的照射，从而使得太阳能硅管及储水箱能够吸收热量对海水进行加热，使其汽化为水蒸汽，水蒸汽冷凝成蒸馏水，进而达到海水淡化的目的。

种集热球制作设备

Nº publicación 18/12/2018CN109028613ASolicitantes \u4E1C\u839E\u5E02\u677E\u7814\u667A\u8FBE\u5DE5\u4E1A\u8BBE\u8BA1\u6709\u9650\u516C\u53F8 Resumen 本发明公开了种集热球制作设备，它包括立板、顶板、放置机构、球罩成型机构、切断机

构、坯料挤出机构、大球封装机构和装配点胶机构，所述放置机构、球罩成型机构均设于所述立板上，所述球罩成型机构包括封装模具，所述封装模具用于封装集热梭，所述封装模具内设有球形的空腔和圆柱形的充气孔，所述放置机构包括真空吸嘴，所述真空吸嘴可固定集热梭及向所述封装模具内注入压缩空气，所述切断机构设于所述球罩成型机构上，所述切断机构用于切断坯料，所述坯料挤出机构设于顶板上，所述坯料挤出机构用于挤出坯料，所述大球封装机构包括有外罩，所述外罩用于放置封装好的集热梭，所述装配点胶机构用于密封所述外罩；本发明结构简单，生产效率高。






ENCLOSED SOLAR ENERGY UTILIZATION DEVICE AND SYSTEM

Nº publicación 13/12/2018US2018358923A1Solicitantes HU XIAOPING [CN]

BOLYMEDIA HOLDING CO LTD [US] Resumen Disclosed is an enclosed solar energy utilization device and

system. The device comprises a first receiver (110), whichforms a relatively enclosed first cavity (111) with at least onelight inlet (112) arranged thereon; at least one light energyconversion element (102) arranged on the inner wall or in theinner space of the first cavity (111); and at least one light guidedevice (104), each of which is hermetically fitted to thecorresponding light inlet (112), in order to guide the externallycollected sunlight to enter the first cavity (111) through the lightinlet (112). The sunlight is guided into the relatively enclosedcavity, and is not be diffused once the sunlight has touched thelight energy conversion element (102). Therefore, the efficiencyof the conversion can be improved.




Solar energy condenser system with a cylindrical liquid lens and "black body" absorber

Nº publicación 13/12/2018AU2017277867A1Solicitantes SANTANDER Y SANTANA S L Resumen The invention relates to a solar energy condenser system

formed by one or several collector devices intended for thecapture and absorption of sunlight, previously concentrated byrefraction, using cylindrical liquid lenses which collect the solarflux and which create a line focus that is perfectly concentratedinto a minimal space inside a "black body"-type absorptionchamber that is perimetrally insulated with ceramic materialexcept for a narrow longitudinal opening or absorption windowlocated in the top part. The refracted solar flux enters throughthis absorption window and is then reflected on the mirroredinner walls and projected onto absorption tubes of a selectivematerial through which a thermal fluid flows, causing the heattransfer of most of the solar energy captured with maximumefficiency, since direct heat loss of the absorption conduitsthrough the absorption window is prevented.

HYBRID SOLAR SYSTEM

Nº publicación 13/12/2018US2018358528A1Solicitantes GAS TECH INSTITUTE [US]

THE REGENTS OF THE UNIV OF CALIFORNIA ON BEHALF OF ITS MERCED CAMPUS [US] HYBRID SOLAR SYSTEM [US]

Resumen A hybrid solar system including a hybrid solar collector usingnon-imaging optics and photovoltaic components and a heattransfer and storage system in thermal communication with thehybrid solar collector, the heat transfer and storage systemusing particle laden gas as thermal media to simultaneouslygenerate and store electricity and high temperaturedispatchable heat.

http://worldwide.espacenet.com/publicationDetails/biblio?FT=D&locale=es_ES&CC=AU&NR=2017277867A1




种基于菲涅尔透镜的聚光装置

Nº publicación 11/12/2018CN108981200ASolicitantes \u5B89\u5FBD\u7406\u5DE5\u5927\u5B66 Resumen 本发明公开了种基于菲涅尔透镜的聚光装置，由菲涅尔透镜、光电传感器、散热片、冷却

管、循环泵、水箱、电机、传动装置、控制芯片等部件构成。整体装置固定于基础之上，根据各地区的纬度，与水平面形成特定的角度，仅菲涅尔透镜阵列按特定的速度做横向、纵向的两轴联动进行追日跟踪，始终保持阳光聚焦于单个或多个聚光目标物之上。底部的换热装置可将目标物因聚光而产生的热量传递给冷流体。该装置对基础的要求更加灵活，对传动和驱动装置的载荷大幅降低，可有效地提升追日跟踪精度，成本也可更加低廉，对施工、校准、后期维护都更加便捷。

种基于定向传光的太阳能集热系统

Nº publicación 11/12/2018CN108981196ASolicitantes \u5E7F\u4E1C\u5DE5\u4E1A\u5927\u5B66 Resumen 本申请实施例公开了种基于定向传光的太阳能集热系统，菲涅尔透镜在水平旋转台的作用

下，能够实现对太阳光线方位角的调整，在旋转固定件的作用下，能够实现对太阳光线高度角的调整，将菲涅尔透镜的聚光焦点与定向调节器的焦点重合，通过定向调节器和导光管对太阳光线进行聚光和传输，实现了太阳能的聚光集热，不需要经过多次的太阳光线反射和折射，避免了太阳能能量的损失，同时不需要使用输油管道进行热传输，也不需要大功率油泵的动力装置，降低了系统的能量损耗；本申请提供的太阳能集热系统，不需要使用光缆进行光的传输和蓄热，而是利用价格低廉且性能稳定的导光管进行聚光和热量传输，经济效益高。

种贴壁式多层反射体全息太阳能聚光器

Nº publicación 11/12/2018CN108988773ASolicitantes \u6E05\u534E\u5927\u5B66\u6DF1\u5733\u7814\u7A76\u751F\u9662 Resumen 本发明提供了种贴壁式多层反射体全息太阳能聚光器，具体包括：光伏电池(4)和多层

体全息反射层(1、2、3)；其中，所述多层体全息反射层(1、2、3)的侧设置在相应的壁上；所述光伏电池(4)设置在所述多层体全息反射层(1、2、3)的另侧，位于各层体全息反射层共同的聚光中心区域，用于接收所述多层体全息反射层(1、2、3)反射的太阳光。其在可聚光范围内可获得所需要的反射聚光光强，同时又满足了低成本、高可靠性和易于推广等技术要求。

超临界CO太阳能热发电系统的氨基热化学储能反应器

Nº publicación 11/12/2018CN108981201ASolicitantes \u6D59\u6C5F\u5DE5\u4E1A\u5927\u5B66 Resumen 超临界CO太阳能热发电系统的氨基热化学储能反应器。超临界CO太阳能热发电系统的

氨基热化学储能系统，包括设置在反射太阳光的定日镜场1的反射光路上的氨分解吸热反应器3，氨分解吸热反应器3和第换热器4架设在集热塔2上，氨分解吸热反应器3、第换热器4、常温压力储存罐7之间用第输气管5和第输液管6依次连接；常温压力储存罐7、第二换热器10、合成氨放热反应器11之间用第二输气管8和第二输液管9依次连接；合成氨放热反应器11与电厂12之间设有以超临界CO为工质的换热循环装置。

基于黑体吸收原理的槽式太阳能收集装置

Nº publicación 11/12/2018CN108981194ASolicitantes \u54C8\u5C14\u6EE8\u5DE5\u4E1A\u5927\u5B66 Resumen 本发明提出种基于黑体吸收原理的槽式太阳能收集装置，该装置的集热装置转盘的下方安

装有转盘固连齿轮，竖直转动支座上安装有抛物面集热管联合转轴，抛物面集热管联合转轴驱动两个集热管支柱和抛物反射面轴向转动，集热管安装在两个集热管支柱上，水泵通过两段柔性水管与集热管连通构成水循环通路，集热管的侧面开有缝隙，集热管为双圆管套筒腔体结构且双圆管的夹层内充满纳米流体介质；光电传感器和温度传感器将感应到的信号传输给控制集成箱。解决了现有槽式太阳能集热技术集热管收集效率低、传热效率低、热损失较大的问题。本发明提高了收集效率和传热效率，气凝胶保温层减少了散热损失；追光系统和温控系统，提高了装置的整体适应性。








种全方位跟踪抛物面镜热能吸收系统

Nº publicación 11/12/2018CN108981190ASolicitantes \u6CB3\u5317\u73E0\u5CF0\u4EEA\u5668\u4EEA\u8868\u8BBE\u5907\u6709\u9650\u516C\u53F8 Resumen 本发明涉及种全方位跟踪抛物面镜热能吸收系统，其特征是：至少包括：并行排列的集热

反光镜单元，用于将太阳光通过反光镜反射到真空集热管上；方位角驱动单元，用于驱动并行排列的集热反光镜单元绕太阳白天移动而转动，使太阳光入射到反光镜面上；高度角驱动单元，用于配合方位角驱动单元绕太阳白天移动而转动的高度调节，使太阳光入射到反光镜面上；支撑单元，用于支撑并行排列的集热反光镜单元，用于安装高度角驱动单元和方位角驱动单元；方位角驱动单元和高度角驱动单元带动并行排列的集热反光镜单元绕太阳的方位角转动。本发明提高了真空集热管的集热效率。

HOLDER FOR SECURING A FLUID TUBE, A SOLAR COLLECTOR, AND METHOD OF ARRANGING A FLUID TUBE

Nº publicación 07/12/2018CN108954860ASolicitantes \u963F\u5E03\u7D22\u91CC\u80AF\u592A\u9633\u80FD\u6536\u96C6\u5668\u516C\u53F8 Resumen A holder (300) for securing a fluid tub e to a trough-formed solar

collector. I n an operation mode of the solar collec tor, theholder (300) partly encircles a circumference of a cross-sectionof t he fluid tube and leaves a portion of t he circumferenceun-encircled by the ho lder (300). The holder (300) may comprise a base member (302) adapted to abut the fluid tube, thebase member (302) c omprising at least one securing means (312) adapted to secure the base member (302) to the solarcollector. Further, the holder (300) may comprise an immobilising member (304) adapted to together with the base member(302) immobilise a centre-line of the fluid tube in the solarcollector when the fluid tube abu ts the holder (300). The basemember (3 02) is connected with the immobilising member(304), such that the base member (302) together with theimmobilising m ember (304), in an operation mode of th e solarcollector, partly encircles the circumference of the cross-sectionof the fluid tube and forms an opening sma ller than a diameterof the cross-secti on of the fluid tube. The immobilising member(304) may be pivotably connected to the base member by aconnecting mea ns (310), such that the immobilising me mber(304) can pivot in relation to the base member (302) to, in aservice mod e of the solar collector, leave an open ing largerthan the diameter of the cro ss-section of the fluid tube.

汽车用供电设备

Nº publicación 07/12/2018CN108944472ASolicitantes \u5B89\u5FBD\u7965\u5409\u6C7D\u8F66\u670D\u52A1\u6709\u9650\u516C\u53F8 Resumen 本发明提出了种汽车用供电设备，包括安装于汽车顶端的支撑结构、设于该支撑结构上的

风力发电装置及设于该汽车顶端的太阳能发电装置，风力发电装置包括导风筒及收容于该导风筒内并可转动设置的若干叶轮，该导风筒为前后开口的框形结构，太阳能发电装置包括设于汽车顶面并位于风力发电装置前侧的太阳能电池板及设于太阳能电池板前侧的太阳热能收集器，该风力发电装置与太阳能发电装置分别与汽车内的备用蓄电池连接，各备用蓄电池与汽车内提供动力的蓄电池连接，每叶轮的转轴后端设有发电机，支杆上设有振动发电装置。该汽车用供电设备可通过风力及太阳光转化为电能，从而储存于蓄电池内供汽车使用，节能环保，适应当代社会的发展趋势。






种定向传光太阳能聚光装置

Nº publicación 07/12/2018CN108954865ASolicitantes \u5E7F\u4E1C\u5DE5\u4E1A\u5927\u5B66 Resumen 本申请实施例公开了种定向传光太阳能聚光装置，本申请的菲涅尔透镜在水平旋转台的作

用下，能够实现对太阳光线方位角的调整，在旋转固定件的作用下，能够实现对太阳光线高度角的调整，将菲涅尔透镜的聚光焦点与定向调节器的焦点重合，通过定向调节器和导光管对太阳光线进行聚光和传输，实现了太阳能的聚光集热，不需要使用输油管道进行热传输，也不需要大功率油泵等动力装置，解决了现有的聚光装置需要用到数量多、管程长的输油管道，容易增加整个集热系统的热损失，和使用大功率油泵动力装置造成系统的损耗增加的技术问题。

种光热系统采集设备

Nº publicación 07/12/2018CN108954866ASolicitantes \u6D59\u6C5F\u5B9D\u5A01\u7535\u6C14\u6709\u9650\u516C\u53F8 Resumen 本发明公开了种光热系统采集设备，包括驱动反射件和调节结构的反射装置、集热管，所

述反射装置包括可左右摆动的反射件和用于驱动反射件左右摆动的角度调节结构，所述反射件的宽度为5‑20公分；本发明采用宽度较小的反射玻璃与角度调节结构相配合使得在不同情况下不易故障，费用成本低。

塔式光热发电系统、定日镜及其跟踪驱动装置、转台

Nº publicación 07/12/2018CN108954861ASolicitantes \u6D1B\u9633\u65AF\u7279\u6797\u667A\u80FD\u4F20\u52A8\u79D1\u6280\u6709\u9650\u516C\u53F8 Resumen 本发明涉及光热发电设备领域，特别涉及塔式光热发电系统、定日镜及其跟踪驱动装置、

转台。定日镜转台包括转台本体、设置在转台本体上的反射镜铰接座和俯仰角油缸铰接座，定日镜转台为铸造成型体结构，反射镜铰接座和俯仰角油缸铰接座均与转台本体铸造体成型。定日镜转台体成型，保证转台的刚性同时提高次加工后的位置精度，与目前的装配式的定日镜转台相比，本发明的定日镜转台精度高，解决了目前的定日镜转台存在的安装精度和刚性较低的问题。

屋顶砖瓦或砖瓦式太阳热能收集器

Nº publicación 07/12/2018CN108954864ASolicitantes \u6C6A\u4E3D Resumen 本发明公开了屋顶砖瓦或砖瓦式太阳热能收集器，包括固定在屋面上固定板的，所述固定

板由多根不锈钢板焊接而成，每根所述不锈钢板的上端均设有疏水槽，所述固定板的上端固定连接有支撑杆，所述支撑杆的上端转动安装板，所述支撑杆位于安装板的侧下端，所述固定板的上端中部设有液压油缸，所述液压油缸的伸缩端转动连接在所述安装板的下端，所述固定板的上端固定连接有两个缓冲装置，两个所述缓冲装置的上端转动连接在所述安装板的下端，所述安装板的上端等间距固定连接有多个太阳能真空管，所述安装板的上端固定连接有水箱。本发明结构设计合理，提高了太阳能收集器的光能转换效率，节约了资源。







QUINTUPLE-EFFECT GENERATION MULTI-CYCLE HYBRID RENEWABLE ENERGY SYSTEM WITH INTEGRATED ENERGYPROVISIONING, STORAGE FACILITIES AND AMALGAMATED CONTROL SYSTEM

Nº publicación 06/12/2018US2018347406A1Solicitantes FRIESTH KEVIN LEE [US] Resumen Provided is a consumer to industrial scale renewable

energy-based quintuple-generation systems and energystorage facility. The present invention has both mobile andstationary embodiments. The present invention includes energyrecovery, energy production, energy processing, pyrolysis,byproduct process utilization systems, separation processsystems and handling and storage systems, as well as an openarchitecture for integration and development of additionalprocesses, systems and applications. The system of thepresent invention primarily uses adaptive metrics, biometricsand thermal imaging sensory analysis (including additionalinput sensors for analysis) for monitoring and control with theutilization of an integrated artificial intelligence and automationcontrol system, thus providing a balanced, environmentally-friendly ecosystem.

Combination Solar and Combustion Heater

Nº publicación 06/12/2018US2018347858A1Solicitantes THERMOLIFT INC [US] Resumen Substituting a solar concentrator for a conventional burner for heating is desirable. However, the sun's energy is

diurnal and cannot be counted upon even during daylight hours. To ensure heating is available, a combustor can beprovided. According to the present disclosure, a heat exchanger element of the heater assembly is directly actedupon by solar rays via a solar concentrator and by combustion. The heat exchanger also acts as the combustionholder when the burner supplements or supplants the solar radiation. Fuel provided to the outside of the heatexchanger is adjusted based on the demanded for heating and the amount of insolation (rate of delivery of solarradiation) achieved via the solar concentrator. The heat exchanger can be part of a conventional heater or a heatpump for heating water or air.





MAINTENANCE METHOD AND SYSTEM FOR SOLAR RECEIVER

Nº publicación 06/12/2018US2018346289A1Solicitantes COCKERILL MAINTENANCE & INGENIERIE SA [BE] Resumen A tower for a concentrated solar power plant includes: an upper

external platform on which is arranged an essentially cylindricalsolar receiver with an external side surface and an upper base,the side surface of the receiver including a plurality ofremovably mounted receiving panels; and a placement andmaintenance system for the receiving panels. The placementand maintenance system for the receiving panels includes acrane mounted so as to be rotatable 360° and guided using atleast two concentric rails, on the upper base of the receiver.

COMPACT LINEAR FRESNEL REFLECTIVE SOLAR CONCENTRATOR DESIGNED FOR DIRECT MOLTEN SALT OPERATIONAS HEAT TRANSFER FLUID IN EVACUATED TUBES

Nº publicación 05/12/2018EP3408595A1Solicitantes UNIV DE EVORA [PT]

太阳能利用装置、太阳能发电或热利用系统以及构筑物

Nº publicación 04/12/2018CN108931063ASolicitantes \u5317\u4EAC\u5146\u9633\u80FD\u6E90\u6280\u672F\u6709\u9650\u516C\u53F8 Resumen 本发明涉及太阳能利用技术领域，具体涉及种太阳能利用装置及利用该装置的太阳能发电

或热利用系统以及构筑物。所述太阳能利用装置包括线性接收器和反射聚光玻璃体；反射聚光玻璃体的上表面为光滑平面，下表面包括至少两排平行布置的条状凸起结构，每排条状凸起结构的长度方向与线性接收器的中心线平行，条状凸起结构外表面的部分或全部涂覆反射膜以形成反射面，由反射聚光玻璃体上表面射入的太阳光经每排条状凸起结构的反射面反射汇聚至条焦线上；线性接收器位于反射聚光玻璃体反射汇聚光线的焦线位置。本发明具有结构简单可靠，成本低廉，占用空间小，还可充当构筑物或建筑物的建筑材料等，清洗维护便捷，省时省力。

汽车用供能设备

Nº publicación 04/12/2018CN108928241ASolicitantes \u5B89\u5FBD\u7965\u5409\u6C7D\u8F66\u670D\u52A1\u6709\u9650\u516C\u53F8 Resumen 本发明提出了种汽车用供能设备，包括安装于汽车顶端的支撑结构、设于该支撑结构上的

风力发电装置及设于该汽车顶端的太阳能发电装置，所述风力发电装置包括导风筒及收容于该导风筒内并可转动设置的若干叶轮，该导风筒为前后开口的框形结构，所述太阳能发电装置包括设于汽车顶面并位于风力发电装置前侧的太阳能电池板及设于太阳能电池板前侧的太阳热能收集器，该风力发电装置与太阳能发电装置分别与汽车内的备用蓄电池连接，各备用蓄电池与汽车内通过动力的蓄电池连接，每叶轮的转轴上设有发电机。该汽车用供能设备可通过风力及太阳光转化为电能，从而储存于蓄电池内供汽车使用，节能环保，适应当代社会的发展趋势。







种建筑的采光装置

Nº publicación 30/11/2018CN108916794ASolicitantes \u4E0A\u6D77\u5E94\u7528\u6280\u672F\u5927\u5B66 Resumen 本发明公开了种建筑的采光装置，用于向建筑的北侧房间反射阳光；包括光线反射系统、

第二镜面反射单元以及若干第三镜面反射单元，其中，经若干第三镜面反射单元反射后的阳光通过建筑的北侧房间的玻璃墙透射进建筑的北侧房间。该建筑的采光装置能够为建筑的北侧房间提供光照并且装置结构简单、使用方便。

SYSTEM AND METHOD FOR THERMO-MECHANICAL MONITORING OF A SOLAR RECEIVER

Nº publicación 30/11/2018CN108917205ASolicitantes \u8003\u514B\u5229\u5C14\u7EF4\u4FEE\u5DE5\u7A0B\u6709\u9650\u8D23\u4EFB\u516C\u53F8 Resumen A concentrated solar power (CSP) plant comprising a plurality

of heliostats or heliostat field, a substantially cylin drical solarenergy receiver (3), prefe rably a molten salt solar receiver(MSS R), located atop a central tower (1) an d having anexternal surface covered wi th receiver panels (30) and a heatshie ld (2) adjacent the solar receiver (3), the heliostatsreflecting solar energy to said external surface of the receiv er(3), each receiver panel (30) compri sing a plurality of heatexchanger tube s (6) for transporting a heat transfer fluid, whichare partly exposed on the external surface of the receiver andco mprising a thermomechanical monitorin g system to ensurethe integrity of the solar receiver panel tubes in operatio n, said thermomechanical monitoring sys tem comprising adata processing system for calculating and/or supplying respe ctively the maximum temperature, temper ature profileand/or absorbed power pro file in each heat exchanger tube (6) an d theoretical mechanical strains assign ed to eachheat exchanger tube (6) as a function of the temperature provided b y the imaging devices (7, 7A, 7B, etc.) , in orderto control if the operating point of an area located on the solar r eceiver (3) is within an operating enve lope (16) in the2D-space theoretical s train/Tmax defining predefined temperat ure and strain thresholds and in order to emit alerts inthe event of exceedin g said predefined temperature and strai n thresholds, while being outside said envelope (16)and

太阳能与燃料热化学互补发电装置及方法

Nº publicación 30/11/2018CN108917215ASolicitantes \u4E2D\u56FD\u79D1\u5B66\u9662\u5DE5\u7A0B\u70ED\u7269\u7406\u7814\u7A76\u6240 Resumen 本发明公开了种消除余弦损失的太阳能与燃料热化学互补的发电装置，该装置包括：原料

预处理单元、二维旋转跟踪太阳能热化学吸收/反应单元、检测与控制系统、产物分离及储存单元与发电动力单元五部分。本发明采用二维跟踪太阳的形式聚焦太阳能以驱动燃料热化学转化，利用热化学转化生成的合成气燃料驱动动力发电设备作功，通过调整圆形或近圆形的太阳能吸收/反应器阵列中各抛物型槽式太阳能吸收/反应器的倾角和方位角，实现其对太阳的二维跟踪，有效避免了太阳能余弦损失、提升了太阳能的利用效率以及减小了太阳能集热镜场的面积，同时，通过聚光太阳能驱动热化学反应，提升了太阳热能的品位，进步提升了太阳能净发电效率。

种太阳能驱动的燃料转化装置及方法

Nº publicación 30/11/2018CN108917206ASolicitantes \u4E2D\u56FD\u79D1\u5B66\u9662\u5DE5\u7A0B\u70ED\u7269\u7406\u7814\u7A76\u6240 Resumen 本发明公开了种太阳能驱动的燃料转化装置，该装置包括：原料预处理单元、二维旋转跟

踪太阳能热化学吸收/反应单元、产物分离及储存单元和检测与控制单元四部分。本发明将太阳能热化学转化与二维跟踪太阳能集热过程进行集成，多组太阳能热化学吸收/反应单元形成圆形或近圆形阵列，并通过调整抛物型槽式太阳能吸收/反应器的倾角和方位角，实现其对太阳的二维跟踪，有效避免了太阳能余弦损失、提升了太阳能的利用效率以及减小了太阳能集热镜场的面积，同时，通过太阳能驱动燃料进行热化学转化，将太阳热能转化为燃料化学能，实现了太阳热能品位的提升。本发明提供了种热力学性能优异、经济性良好的太阳能利用装置和燃料转化装置。







种风光互补全天候热水器

Nº publicación 30/11/2018CN108917201ASolicitantes \u4E0A\u6D77\u7535\u529B\u5B66\u9662 Resumen 本发明涉及种风光互补全天候热水器，包括底座、安装在底座上的支架以及安装在支架上

端的水箱，所述水箱内设有电加热管，所述电加热管连接风力发电单元并由风力发电单元提供电能，所述水箱底部设有集热板，所述集热板下部设有可旋转的太阳能聚光单元，所述太阳能聚光单元将太阳光汇聚并照射在水箱集热板上。与现有技术相比，本发明风光互补全天候热水器，结合太阳能集热与小型风力发电，加热水的方式变为太阳能集热加热水与电加热管加热水的结合，相比于传统太阳能热水器，本发明对太阳光的依赖性降低；同时小型风力发电机适应性强，对风速要求不高，当太阳光强度不够时，风力发电热水系统进行补偿。

Solar Thermochemical Processing System and Method

Nº publicación 29/11/2018US2018339283A1Solicitantes BATTELLE MEMORIAL INSTITUTE [US] Resumen A solar thermochemical processing system is disclosed. The

system includes a first unit operation for receiving concentratedsolar energy. Heat from the solar energy is used to drive thefirst unit operation. The first unit operation also receives a firstset of reactants and produces a first set of products. A secondunit operation receives the first set of products from the first unitoperation and produces a second set of products. A third unitoperation receives heat from the second unit operation toproduce a portion of the first set of reactants.





PLATFORM FOR PARABOLIC SOLAR COLLECTORS

Nº publicación 29/11/2018WO2018215128A1Solicitantes LUCIDA SOLAR LTD [GB] Resumen This invention is related to a carrier platform that is developed

for installation and positioning of parabolic solar collectors usedin solar thermal systems and that can move in two axes toenable perpendicularly tracking the sun all day long.


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